Until now, planets were the only objects in the solar system known to have rings.

"When I realized that an elliptical ring could explain all the [data] I almost jumped out of my seat!"

In a first, scientists have detected rings encircling an M&M-shaped asteroid known as Chariklo.

Until now, only the solar system's four gas planets — Jupiter, Neptune, Uranus and especially Saturn — were known to have rings.

"It was an extremely surprising discovery," said James Bauer, a planetary astronomer at NASA's Jet Propulsion Laboratory in La Cañada Flintridge who was not involved in the finding. "No one has ever seen rings around a comet or an asteroid before. This is a brand-new area."

Until now, we had no idea that anything but the giant planets could have rings. [The discovery] is amazingly cool.- Amy Mainzer, an astronomer at NASA's Jet Propulsion Laboratory

The two concentric rings around Chariklo are dense, thin and bright, according to a report published online Wednesday by the journal Nature. Observations made with seven different telescopes in June 2013 indicate that the outer ring is about 2 miles wide and the inner ring measures roughly 4 miles wide. The elliptical rings are separated by a gap of about 5.5 miles, and they are probably made of water ice, scientists reported.

Chariklo, a 155-mile-wide rock that orbits the sun between Saturn and Uranus, is part of a class of objects known as centaurs. These space rocks are thought to be part comets, part asteroids.

Scientists believe Chariklo's surface is made of carbon silicates and organics, with icy materials trapped below. It reflects just 3% of the light that hits it, making it darker than asphalt — and thus difficult to study from Earth.

The rings were discovered when an international team of scientists observed Chariklo passing in front of a distant star. Using a technique known as occultation, they took careful measurements of how long the asteroid blocked the star's light.

The scientists, led by Felipe Braga-Ribas of Brazil's National Observatory in Rio de Janeiro, were hoping to get a more precise idea of the centaur's size. But something unexpected happened. The star's light went out briefly twice, then for a long time, and then briefly twice again. Something around Chariklo was clearly blocking the star as well.

"We had puzzling data that we did not know how to reconcile," said Jose Ortiz of the Institute of Astrophysics of Andalusia in Spain, a member of the research team and coauthor of the paper. "But when I realized that an elliptical ring could explain all the secondary occultation events, I almost jumped out of my seat!"

Scientists used a similar method to discover the rings of Uranus and of Neptune. "This is a great technique for finding faint rings, and the evidence is very credible," Bauer said.

Amy Mainzer, an astronomer at the Jet Propulsion Laboratory who was not involved in the study, said that "until now, we had no idea that anything but the giant planets could have rings." She added that the team's discovery "is amazingly cool."

Nobody knows exactly how Chariklo's rings formed, but the Nature authors suggest their origin is probably tied to some sort of collision. One scenario is that another asteroid slammed into Chariklo, knocking ice off its surface that reformed as rings. Another possibility is that something hit a moon orbiting the centaur and the debris from that collision made the rings. Or perhaps two small moons of the asteroid smashed together, forming the two circles.

"I particularly like the scenario of the total or partial disruption of a moon through a relatively small collision, but so far we have little information to decide which mechanism is best to explain what we saw," Ortiz said.

No one has ever seen rings around a comet or an asteroid before. This is a brand-new area.- James Bauer, a planetary astronomer at NASA's Jet Propulsion Laboratory

The scientific team is hoping to get some time on the Hubble Space Telescope to collect actual images of Chariklo and its rings. They are also planning to observe it with a network of telescopes during three more occultation events expected to occur this year. The centaur is currently moving through a crowded star field, so such opportunities are relatively frequent.

Although Chariklo is the first small planetary body to be discovered with a ring system, it may not be the last.

"We are looking for rings around other bodies, and in fact, we think we have found another object that may have very similar rings to Chariklo," Ortiz said.

The European Southern Observatory, whose telescopes were used to study Chariklo, prompted intense speculation about the team's discovery by announcing Tuesday that scientists would reveal "a surprise discovery in the outer solar system."

Astronomers and sky-watching buffs took to Twitter to share their guesses about the news, often with their tongues in their cheeks.

"Kuiper Belt objects not only icy, but also fruit-flavored like Popsicles," tweeted Erik Gregersen, an astronomy editor at the Encyclopedia Britannica.

Astrophysicist Katie Mack wrote: "ISON had friends, and they want vengeance," a reference to the comet that disintegrated upon its near approach to the sun last year.

The folks at ESO couldn't help commenting on the rumors.

"Some of your #ESOrumors are really funny," the observatory's main account tweeted. "Better than the real thing."

For a brief moment last September, a flash on the moon shone about as bright as the North Star, Polaris, giving away the biggest crash from a space rock hitting the lunar surface ever caught on camera, astronomers say.

Before Pluto’s fall from planetary grace, there was Ceres. Depending on your definition, it’s either the largest asteroid or the smallest dwarf planet -- but for a few glorious decades in the 1800s, the rocky sphere was a full planet in the solar system's pantheon.

Scientists analyzing fragments of poorly preserved dinosaur bones excavated more than a century ago have discovered what appear to be red blood cells and collagen fibers, soft tissues that thus far have only found rarely, on extremely well-preserved fossils.